Comparative analysis of adverse drug reactions associated with new antiseizure medications from the Korea Adverse Event Reporting System database.

OBJECTIVE: This study aimed to compare and characterize the safety profiles of new antiseizure medications (ASMs) using a nationwide pharmacovigilance database from a long-term perspective in Korea. METHODS: We reviewed adverse event reports from the Korea Adverse Event Reporting System database between January 2013 and December 2022 for descriptive analysis of six new ASMs (lacosamide, levetiracetam, lamotrigine, oxcarbazepine, topiramate, and zonisamide). We investigated the frequency and characteristics of adverse drug reactions (ADRs) based on the MedDRA terminology, system organ classes, and modified WHO classification. RESULTS: We identified 5,733 reported cases of ADRs. The commonly reported ADRs associated with total ASMs were rash/urticaria (1,822, 31.8 %), dizziness (409, 7.1 %), somnolence/drowsiness (311, 5.4 %), and hepatotoxic effects (273, 4.8 %). Type B (idiosyncratic) effects (2,932; 51.1 %) were more commonly reported than Type A (related to known drug mechanisms) effects (2,613; 45.6 %). Skin and subcutaneous tissue disorders and type B effects were most commonly reported for lamotrigine and oxcarbazepine, whereas nervous system disorders and type A effects were most commonly reported for lacosamide, topiramate, and zonisamide. The pediatric group (<18 years) exhibited skin and subcutaneous tissue disorders and type B effects relatively more frequently than the adult and older adult groups. CONCLUSION: Hypersensitivity skin reactions and type B effects remained significant ADRs in the new ASMs; however, type A effects were more commonly reported in some ASMs. The pediatric group showed a higher rate of type B effects. Overall, new ASMs should also be used with caution.

Teratogenicity of zonisamide and other little-used antiseizure medications.

PURPOSE: To investigate the risk of teratogenesis occurring in relation to intrauterine exposure to infrequently used antiseizure medications in Australia. METHODS: Analysis of data contained in the Raoul Wallenberg Australian Pregnancy Register of Antiepileptic Drugs. RESULTS: There was statistically significant evidence that zonisamide, but not any other of nine infrequently used antiseizure medications in Australia, was associated with a risk of teratogenesis related to the maternal dose of the drug taken in at least the earlier half of pregnancy. CONCLUSIONS: The teratogenesis associated with zonisamide, like that associated with topiramate and possibly acetazolamide, may be an expression of a class effect shared among sulphonamide-derived carbonic anhydrase inhibitors that possess anti-seizure activity.

Immune-mediated polyarthritis and anterior uveitis secondary to zonisamide administration in a dog with refractory epilepsy.

The objective of this article is to describe a case of suspected zonisamide-induced immune-mediated polyarthritis (IMPA) and anterior uveitis in a dog. A 7-year-old male neutered Siberian Husky with a history of refractory idiopathic epilepsy was presented for cluster seizures. Following the addition of zonisamide to the antiepileptic regime, the dog developed new IMPA and anterior uveitis. Within a few weeks of discontinuation of the zonisamide, the dog's IMPA and anterior uveitis resolved. These immune-mediated conditions were thus presumed to be an idiosyncratic reaction to zonisamide. To our knowledge, this is the first report of IMPA and anterior uveitis in dogs associated with zonisamide administration at its recommended dose.

Efficacy and Safety of MAO-B Inhibitors Safinamide and Zonisamide in Parkinson's Disease: A Systematic Review and Meta-Analysis of Randomized Controlled Trials.

BACKGROUND AND OBJECTIVE: In Parkinson's disease, safinamide and zonisamide are novel monoamine oxidase-B inhibitors with a dual mechanism of action involving the inhibition of sodium and calcium channels and the subsequent release of glutamate. The aim of this systematic review and meta-analysis was to examine the efficacy and safety of both drugs compared with placebo on motor symptoms, cognitive function, and quality of life in patients with Parkinson's disease. METHODS: We searched MEDLINE, EMBASE, Cochrane Central, Scopus, PsycINFO, and trials registries up to March 2023 for randomized controlled trials of adults with Parkinson's disease administered either safinamide or zonisamide and published in English. We excluded single-arm trials or if neither the efficacy nor safety outcomes of interest were reported. Primary outcomes were the change from baseline in Unified Parkinson's Disease Rating Scale section III (UPDRS-III) and serious adverse events. Secondary outcomes included a change from baseline in OFF-time, Parkinson's Disease Questionnaire 39 to evaluate quality of life, and Mini-Mental State Examination for cognitive function assessment. The meta-analysis was conducted using Review Manager 5.4.1. Random-effect models were used to calculate the pooled mean differences (MDs) and risk ratios with 95% confidence intervals (CIs). Subgroup analyses by medication, doses, Parkinson's disease stage, and risk of bias were conducted. We assessed the risk of bias using the Cochrane's risk of bias tool. Sensitivity analysis was conducted, and publication bias were evaluated. This meta-analysis was not externally funded, and the protocol is available on the Open Science Framework Registration ( https://doi.org/10.17605/OSF.IO/AMNP5 ). RESULTS: Of 3570 screened citations, 16 trials met inclusion criteria (4314 patients with Parkinson's disease). Ten safinamide trials were conducted in several countries. Six zonisamide trials were included, five of which were conducted in Japan and one in India. UPDRS Part III scores were significantly lower with both monoamine oxidase-B inhibitors than with placebo (MD = -  2.18; 95% CI -  2.88 to -  1.49; I 2 =63%; n = 14 studies). A subgroup analysis showed a significant improvement in UPDRS-III in safinamide (MD = -  2.10; 95% CI -  3.09 to -  1.11; I2 = 71%; n = 8 studies) and zonisamide (MD = -  2.31; 95% CI -  3.35 to -  1.27; I2 = 52%; n = 6 studies) compared with placebo. Monoamine oxidase-B inhibitors significantly decreased OFF-time compared with placebo. No significant differences in cognitive function (Mini-Mental State Examination), whereas an improvement in quality of life (Parkinson's Disease Questionnaire 39 scores) was observed. There was no significant difference in incidence rates of serious adverse events among all examined doses of zonisamide and safinamide compared with placebo. Two trials were reported as a high risk of bias and sensitivity analyses confirmed the primary analysis results. CONCLUSIONS: Evidence suggests that novel monoamine oxidase-B inhibitors not only improve motor symptoms but also enhance patients' quality of life. The meta-analysis showed that both medications have a similar safety profile to placebo with regard to serious adverse events. The overall findings emphasize the effectiveness of safinamide and zonisamide in the treatment of Parkinson's disease as adjunct therapy. Further long-term studies examining the impact of these medications on motor and non-motor symptoms are necessary.

Zonisamide-induced distal renal tubular acidosis and critical hypokalaemia.

A woman in her 20s presented with rapidly progressive muscle weakness and a 1-month preceding history of fatigability, nausea and vomiting. She was found to have critical hypokalaemia (K+ 1.8 mmol/L), a prolonged corrected QT interval (581 ms) and a normal anion gap metabolic acidosis (pH 7.15) due to zonisamide-induced distal (type 1) renal tubular acidosis. She was admitted to the intensive care unit for potassium replacement and alkali therapy. Clinical and biochemical improvement ensued, and she was discharged after a 27-day inpatient stay.

Pretreatment with Zonisamide Mitigates Oxaliplatin-Induced Toxicity in Rat DRG Neurons and DRG Neuron-Schwann Cell Co-Cultures.

Oxaliplatin (OHP) is a platinum-based agent that can cause peripheral neuropathy, an adverse effect in which the dorsal root ganglion (DRG) neurons are targeted. Zonisamide has exhibited neuroprotective activities toward adult rat DRG neurons in vitro and therefore, we aimed to assess its potential efficacy against OHP-induced neurotoxicity. Pretreatment with zonisamide (100 µM) alleviated the DRG neuronal death caused by OHP (75 µM) and the protective effects were attenuated by a co-incubation with 25 µM of the mitogen-activated protein kinase (MAPK; MEK/ERK) inhibitor, U0126, or the phosphatidyl inositol-3'-phosphate-kinase (PI3K) inhibitor, LY294002. Pretreatment with zonisamide also suppressed the OHP-induced p38 MAPK phosphorylation in lined DRG neurons, ND7/23, while the OHP-induced DRG neuronal death was alleviated by pretreatment with the p38 MAPK inhibitor, SB239063 (25 µM). Although zonisamide failed to protect the immortalized rat Schwann cells IFRS1 from OHP-induced cell death, it prevented neurite degeneration and demyelination-like changes, as well as the reduction of the serine/threonine-specific protein kinase (AKT) phosphorylation in DRG neuron-IFRS1 co-cultures exposed to OHP. Zonisamide's neuroprotection against the OHP-induced peripheral sensory neuropathy is possibly mediated by a stimulation of the MEK/ERK and PI3K/AKT signaling pathways and suppression of the p38 MAPK pathway in DRG neurons. Future studies will allow us to solidify zonisamide as a promising remedy against the neurotoxic adverse effects of OHP.

Distal renal tubular acidosis and lethargy associated with zonisamide treatment in a dog with idiopathic epilepsy.

A 3-year-old neutered male golden retriever administered zonisamide for the treatment of seizures showed lethargy and had normal anion gap metabolic acidosis with hypokalaemia, hyperchloremia, and alkaline urine. The serum zonisamide concentration was close to the upper limit, which raised a suspicion of adverse effects of zonisamide. This is the first report showing that the fractional excretion of bicarbonate after compensation for the plasma bicarbonate concentration by a sodium bicarbonate infusion was approximately 5%, indicating distal renal tubular acidosis (RTA). The serum zonisamide concentration decreased, and adverse effects were abated by reducing the zonisamide dosage. Diagnostic therapy with bicarbonate served as a means of compensating for bicarbonate deficiency and contributed to the clinical diagnosis of the condition in zonisamide-associated RTA in dogs.

Presumed zonisamide-induced blood dyscrasias in four dogs.

OBJECTIVE: To describe 4 canine cases of presumed zonisamide-induced blood dyscrasias. CASE SUMMARY: From 2007 to 2018 at Angell Animal Medical Center and from 2014 to 2019 at the Cummings School of Veterinary Medicine at Tufts University, 4 dogs presented with febrile neutropenia while being administered zonisamide. No septic focus was found on workup for any of the dogs, and the clinical signs were attributed to an idiosyncratic drug reaction. All WBC counts returned to normal with drug withdrawal, and all dogs survived. NEW OR UNIQUE INFORMATION PROVIDED: Presumptive zonisamide-induced blood dyscrasias are a rare complication that has not previously been reported in the veterinary literature.

Incidence of hepatopathies in dogs administered zonisamide orally: A retrospective study of 384 cases.

BACKGROUND: Acute hepatopathy secondary to administration of zonisamide has been reported in 2 dogs, but overall incidence of hepatopathy is unknown. OBJECTIVE: To characterize the incidence of hepatopathy in dogs administered zonisamide PO. ANIMALS: Three hundred eighty-four dogs administered zonisamide PO. METHODS: Multicenter retrospective study. Medical records were searched for dogs prescribed zonisamide PO and which had follow-up for at least 3 months (acute exposure) and >3 months (chronic exposure). Reported clinical signs, physical examination findings, and serum biochemical panels were reviewed for possible hepatotoxicosis. Serum alanine aminotransferase (ALT) and alkaline phosphatase (ALP) activity and albumin concentration were documented for all available cases. RESULTS: Acute clinical hepatopathy was found in 2 of 384 treated dogs (0.52%, 95% confidence interval [CI], 0.06-1.9) after 13-16 days of zonisamide treatment. One additional dog had elevated serum ALT activity with no clinical signs. Of these 3 dogs, 2 recovered after administration of zonisamide was stopped, and 1 was euthanized because of liver failure. Of the 117 cases chronically administered zonisamide, 10 had an increase in ALP, 6 had an increase in ALT, and 1 had hypoalbuminemia. No clinical signs of liver disease were noted in dogs chronically treated with zonisamide (median, 20 months; range, 5-94 months). CONCLUSIONS AND CLINICAL IMPORTANCE: Acute, potentially life-threatening hepatopathy associated with oral administration of zonisamide to dogs is estimated to occur in less than 1% of dogs and was observed in the first 3 weeks of treatment. Subclinical abnormalities in ALT and ALP activity were noted in <10% of dogs during chronic administration of zonisamide, with no clinical signs of liver disease noted.

Drug rash with eosinophilia and systemic symptoms (DRESS) syndrome in a paediatric patient taking zonisamide.

We describe the case of an 11-year-old male patient who presented with a new onset of rash after a recent introduction of zonisamide. Drug rash with eosinophilia and systemic symptoms (DRESS syndrome) is a very serious but rare adverse effect of anticonvulsants such as carbamazepine and phenytoin; however, the reported incidence on zonisamide is scant. DRESS syndrome is complex in its presentation. This patient presented with rash, fever, lymphadenopathy, severe skin erythema, oedema and reduced Glasgow Coma Scale (GCS). He was successfully treated with pulsed intravenous methylprednisolone and intravenous immunoglobulin. The patient was discharged home well after a 3-week admission.

Long-Term Efficacy and Safety of Zonisamide for Treatment of Parkinsonism in Patients With Dementia With Lewy Bodies: An Open-Label Extension of a Phase three Randomized Controlled Trial.

OBJECTIVES: To evaluate the long-term efficacy and safety of zonisamide, an antiepileptic agent, in dementia with Lewy bodies (DLB). DESIGN: Phase three clinical trial with 12 week, randomized, placebo-controlled, double-blind, and subsequent 40 week, open-label, extension periods. SETTING: A total of 109 centers in Japan between April 2015 and November 2017. PARTICIPANTS: Outpatients diagnosed with probable DLB. INTERVENTION: Outpatients were randomly assigned to receive placebo (P) or zonisamide 25 or 50 mg/day for 12 weeks. In the subsequent open-label 40 week period, all patients initially received zonisamide 25 mg/day for at least 2 weeks followed by optional flexible dosing with zonisamide 25 or 50 mg/day for the remaining period. MEASUREMENTS: The primary outcome was efficacy on motor symptoms, assessed using the Unified Parkinson's Disease Rating Scale part III (UPDRS-III) score, over the total 52 week trial period. Effects on behavioral and psychological symptoms of dementia and cognitive function, and safety were also evaluated. RESULTS: In total, 335 patients were included in the long-term analysis: 106, 117, and 112 in the P-, 25mg-, and 50mg-Flex groups, respectively. UPDRS-III score continued to improve for an additional 12 to 16 weeks in the open-label period (mean [standard deviation] change from baseline at Week 28: -5.1 [7.3] and -6.3 [8.2] in the 25mg- and 50mg-Flex groups) and remained almost constant thereafter. No unexpected neurological or psychiatric adverse events occurred, and no adverse events increased in incidence in the open-label period. CONCLUSIONS: Long-term treatment with zonisamide was well tolerated and yielded sustained improvement in motor symptoms. TRIAL REGISTRATION: JapicCTI-152839 (Registered on 9 March 2015) https://www.clinicaltrials.jp/cti-user/trial/ShowDirect.jsp?japicId=JapicCTI-152839.

Pharmacokinetics of zonisamide after oral single dosing and multiple-dose escalation administration in domestic chickens (Gallus gallus).

BACKGROUND: There are few effective drugs for treatment of seizures in avian species. OBJECTIVES: To investigate the pharmacokinetics and safety of zonisamide in chickens. METHODS: Phase 1: chickens (n = 4) received a single oral dose of zonisamide at 20 mg/kg. Blood samples were collected intermittently for 36 hr after dosing. Phase 2: chickens (n = 8) received zonisamide in a dose escalation protocol (20, 30, 60 and 80 mg/kg orally every 12 hr). The dose was increased weekly, and peak and trough blood samples were collected on Days 1, 3, and 7 each week. Two birds were randomly euthanized at the end of each week. Plasma zonisamide concentrations were analysed using a commercial immunoassay. Drug concentration vs. time data were subjected to non-compartmental pharmacokinetic analysis. RESULTS: For Phase 1, peak plasma zonisamide (Cmax ) was 15 ± 3 µg/ml at 2 ± 1 hr (Tmax ). The disappearance half-life was 6.5 ± 1 hr. Mean plasma concentrations remained within the (human) therapeutic range (10-40 µg/ml) for 6 hr. For Phase 2 of the study, plasma concentrations of zonisamide remained within or close to the recommended mammalian therapeutic range for birds in the 20 and 30 mg/kg dose. Area under the curve (AUC) and Cmax were dose dependent. Two birds developed immune-mediated haemolytic anaemia. CONCLUSIONS: Zonisamide appears to be a viable drug for use in chickens at a dose of 20 mg/kg orally every 12 hr.

Incidence rates of severe cutaneous adverse reactions due to antiseizure medication: A nationwide study using health claims data in Korea.

OBJECTIVE: Antiseizure medications (ASMs) can rarely result in severe, sometimes fatal, cutaneous adverse reactions. To date, few studies have reported on the incidence rates (IRs) of severe cutaneous adverse reactions (SCARs) due to ASM use. This study aimed to determine the IRs of SCAR resulting from the use of seven commonly prescribed ASMs, carbamazepine (CBZ), phenytoin (PHT), oxcarbazepine (OXC), lamotrigine (LMT), zonisamide (ZNS), levetiracetam (LVT), and topiramate (TPM), and to compare the associated risks among the drugs. METHODS: Using a nationwide health claims database, we selected all the patients prescribed with one of the target ASMs. We defined a SCAR case as the first hospitalization with one of three specific codes provided by the International Classification of Diseases, 10th revision (L511, L512, and L27). We then calculated the IR of SCARs according to each target ASM. RESULTS: The IR of SCARs for each ASM was as follows: 870/1 000 000 person-years (PYs) for CBZ, 5750/1 000 000 PYs for PHT, 1490/1 000 000 PYs for OXC, 3860/1 000 000 PYs for LMT, 1540/1 000 000 PYs for ZNS, 830/1 000 000 PYs for LVT, and 400/1 000 000 PYs for TPM. Concomitant use of antibiotics and nonsteroidal anti-inflammatory drugs significantly increased the risk of SCARs with OXC, LVT, or TPM use. Comorbid skin disease was associated with a significantly higher IR of SCARs from CBZ, PHT, OXC, LMT, or LVT use. SIGNIFICANCE: This is the first study in Asia to determine the IRs of SCARs for various ASMs and compare the rates across drugs using a large dataset. The results from this study should help clinicians select safer ASMs in practice.

Zonisamide Therapy for Patients With Paroxysmal Kinesigenic Dyskinesia.

BACKGROUND: We evaluated zonisamide therapy in patients with paroxysmal kinesigenic dyskinesia (PKD). METHODS: We analyzed zonisamide therapy in 17 patients with PKD at Saitama Children's Medical Center between November 1994 and April 2020. We collected information regarding family history, previous history, age at onset, age at zonisamide commencement, dyskinesia characteristics, brain magnetic resonance imaging, interictal electroencephalography, treatment lag, zonisamide efficacy, zonisamide dose, serum zonisamide concentration, and adverse effects. We evaluated PKD frequency at six months after zonisamide therapy commencement. RESULTS: Fourteen patients met the inclusion criteria. The median age at zonisamide therapy commencement was 12.8 (9.4 to 16.3) years. Zonisamide therapy was effective in 13 of 14 (92.9%) patients: complete remission for more than three months after zonisamide therapy (n = 7), decreased dyskinesia frequency by more than 90% (n = 4), dyskinesia frequency by 75% to 90% (n = 2), and no change of dyskinesia frequency (n = 1). The initial and maintenance zonisamide doses were 2.0 (1.4 to 3.8) and 2.0 (1.5 to 5.9) mg/kg/day, respectively. The median duration between zonisamide therapy commencement and dyskinesia decrease or cessation was 4 (1 to 60) days: 10 of 14 (71.4%) patients responded to zonisamide within one week after zonisamide therapy commencement. Regarding adverse effects, two patients experienced somnolence and one developed reduced perspiration. CONCLUSIONS: We suggest that zonisamide monotherapy is effective for patients with PKD as a first-line treatment. We can evaluate the efficacy of zonisamide therapy within one week. Because zonisamide lacks the enzyme-inducing effects of carbamazepine and phenytoin, it may be useful for PKD treatment.

Non-Dopaminergic Treatments for Motor Control in Parkinson's Disease: An Update.

Glutamatergic, noradrenergic, serotonergic, and cholinergic systems play a critical role in the basal ganglia circuitry. Targeting these non-dopaminergic receptors remains a focus of ongoing research to improve Parkinson's disease (PD) motor symptoms, without the potential side effects of dopamine replacement therapy. This review updates advancements in non-dopaminergic treatments for motor control in PD since 2013. To date, no non-dopaminergic selective drug has shown significant long-term efficacy as monotherapy in PD. The largest area of development in non-dopaminergic targets has been for motor complications of dopamine replacement therapy (motor fluctuations and dyskinesia). For treatment of motor fluctuations, safinamide, zonisamide, and istradefylline are currently approved, and novel glutamatergic and serotonergic drugs are in development. Long-acting formulations of amantadine are approved for treating dyskinesia. Several non-dopaminergic drugs have failed to show anti-dyskinetic efficacy, while some are still in development. Non-dopaminergic targets are also being pursued to treat specific motor symptoms of PD. For example, CX-8998 (a calcium channel modulator) is being evaluated for PD tremor and rivastigmine may improve gait dysfunction in PD. Drug repurposing continues to be a key strategy for non-dopaminergic targets in PD, but the field needs to increase discovery and availability of such drugs.

Zonisamide-induced Choroidal Effusion: A Case Report.

PURPOSE: To describe a case of zonisamide-induced bilateral choroidal effusion. CASE REPORT: A 72-year-old woman presented with a 4-day history of bilateral blurred vision 9 days after initiating oral zonisamide for essential tremor. Clinical examination revealed an asymmetric choroidal detachment with open anterior chamber angle and intraocular pressure within the normal range. Posterior segment ultrasonography and ultrasound biomicroscopy both confirmed the presence of bilateral ciliochoroidal effusion. Zonisamide treatment was discontinued. One month after treatment discontinuation, the ophthalmological examination was normal and no further treatment was needed. CONCLUSION: Zonisamide can cause an idiosyncratic reaction leading to choroidal effusion with or without acute angle closure. Early withdrawal of the causative agent is the key to reversing this condition. These findings indicate that zonisamide and other sulfa-derived drugs must be ruled out in the differential diagnosis of choroidal effusion of unknown cause.

Zonisamide add-on therapy for focal epilepsy.

BACKGROUND: The majority of people with epilepsy have a good prognosis, and their seizures can be well controlled with the use of a single antiepileptic agent, but up to 30% develop dug-resistant epilepsy, especially those with focal seizures. In this review, we summarised the evidence from randomised controlled trials (RCT) of zonisamide, used as an add-on treatment for focal epilepsy uncontrolled by one or more concomitant antiepileptic drug. This is an updated version of the Cochrane review previously published in 2018. OBJECTIVES: To evaluate the efficacy and tolerability of zonisamide, when used as an add-on treatment for people with focal epilepsy uncontrolled by one or more concomitant antiepileptic drugs. SEARCH METHODS: For the latest update, we searched the Cochrane Register of Studies (CRS Web) and MEDLINE Ovid (September 2019). In addition, we contacted Eisai Limited (makers and licensees of zonisamide) and experts in the field, to seek any ongoing or unpublished studies. SELECTION CRITERIA: Randomised controlled trials, in which add-on zonisamide was compared with placebo or another antiepileptic drug in people with focal epilepsy, uncontrolled by one or more concomitant antiepileptic drugs. DATA COLLECTION AND ANALYSIS: Two review authors independently selected trials for inclusion, extracted data, assessed for risk of bias using the Cochrane 'Risk of bias' tool, and assessed the certainty of the evidence, using the GRADE approach. The primary outcome was at least a 50% reduction in total seizure frequency; the secondary outcomes were (1) tolerability; and (2) adverse effects. We used an intention-to-treat approach for our primary analyses. We estimated summary risk ratios (RRs) for each outcome. We displayed a summary of the estimates of effects and certainty of the evidence for each outcome in a 'Summary of findings' table. MAIN RESULTS: We did not find any new studies since the last version of this review. We included eight studies (1636 participants) from previous versions of this review. The overall RR with 95% confidence interval (CI) for at least a 50% reduction in seizure frequency for 300 mg to 500 mg/day of zonisamide compared to placebo was 1.90 (95% CI 1.63 to 2.22; 7 trials, 1371 participants; moderate-certainty evidence). The RR for 50% reduction in seizure frequency compared to placebo for any dose of zonisamide (100 mg to 500 mg/day) was 1.86 (95% CI 1.60 to 2.17; 7 trials, 1429 participants; moderate-certainty evidence). The number needed to treat for an additional beneficial outcome was six (95% CI 4.1 to 6.8). Two trials provided evidence of a dose-response relationship for this outcome. The RR for treatment withdrawal for 300 mg to 500 mg/day of zonisamide compared to placebo was 1.59 (95% CI 1.18 to 2.13; 6 trials, 1099 participants; moderate-certainty evidence), and for 100 mg to 500 mg/day was 1.44 (95% CI 1.08 to 1.93; 6 trials, 1156 participants; moderate-certainty evidence). The number needed to treat for an additional harmful outcome was 15 (95% CI 9.3 to 36.7). The following adverse effects were more likely to be associated with zonisamide than with placebo: ataxia (RR 3.85, 99% CI 1.36 to 10.93; 4 trials, 734 participants; low-certainty evidence); somnolence (RR 1.52, 99% CI 1.00 to 2.31; 8 trials, 1636 participants; moderate-certainty evidence); agitation (RR 2.35, 99% CI 1.05 to 5.27; 4 trials, 598 participants; low-certainty evidence); and anorexia (RR 2.74, 99% CI 1.64 to 4.60; 6 trials, 1181 participants; low-certainty evidence). Across the eight studies, we rated risk of bias domains at low or unclear risk of bias, apart from two studies, which we rated at high risk of attrition bias. Five of the eight studies were sponsored by the drug companies that produced zonisamide. AUTHORS' CONCLUSIONS: When used as an add-on treatment in people with focal epilepsy, uncontrolled by one or more concomitant antiepileptic drugs, moderate-certainty evidence found that zonisamide was more successful than placebo at reducing the frequency of seizures by at least 50%. We were unable to identify minimum effective and maximum tolerated doses. The included trials evaluated a maximum stable-dose phase of 18 weeks, so results cannot be used to confirm longer periods of efficacy in seizure control. The results cannot be extrapolated to monotherapy, or to people with other seizure types or epilepsy syndromes.